pw_stream/std_file_stream_test.cc - pigweed/pigweed - Git at Google

 // Copyright 2022 The Pigweed Authors
 //
 // Licensed under the Apache License, Version 2.0 (the "License"); you may not
 // use this file except in compliance with the License. You may obtain a copy of
 // the License at
 //
 //     https://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
 // WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
 // License for the specific language governing permissions and limitations under
 // the License.

 #include "pw_stream/std_file_stream.h"

 #include <algorithm>
 #include <array>
 #include <cinttypes>
 #include <cstdio>
 #include <filesystem>
 #include <random>
 #include <string>
 #include <string_view>

 #include "gtest/gtest.h"
 #include "pw_assert/assert.h"
 #include "pw_bytes/span.h"
 #include "pw_containers/algorithm.h"
 #include "pw_random/xor_shift.h"
 #include "pw_span/span.h"
 #include "pw_status/status.h"
 #include "pw_status/status_with_size.h"
 #include "pw_string/string_builder.h"

 namespace pw::stream {
 namespace {

 constexpr std::string_view kSmallTestData(
     "This is a test string used to verify correctness!");

 // Creates a directory with a specified prefix followed by a random 32-bit hex
 // number. Random temporary file handle names can then be requested. When the
 // TempDir is destroyed, the entire directory is deleted.
 //
 // Example created temporary files:
 //     /tmp/StdFileStreamTest32B37409/997BDDA2
 //     /tmp/StdFileStreamTest32B37409/C181909B
 //
 // WARNING: This class should ONLY be used for these tests!
 //
 // These tests need to open and close files by file name, which is incompatible
 // with std::tmpfile() (which deletes files on close). Even though std::tmpnam()
 // looks like the right tool to use, it's not thread safe and doesn't provide
 // any guarantees that the provided file name is not in use. std::tmpnam() is
 // also marked with a deprecation warning on some systems, warning against using
 // it at all.
 //
 // While on some systems this approach may provide significantly better
 // uniqueness since std::random_device may be backed with thread-safe random
 // sources, the STL does not explicitly require std::random_device to produce
 // non-deterministic random data (instead only recommending it). If
 // std::random_device is pseudo-random, this temporary directory will always
 // end up with the same naming pattern.
 //
 // If the STL required std::random_device to be thread-safe and
 // cryptographically-secure, this class could be made reasonably production
 // ready by increasing use of entropy and making temporary file name selection
 // thread-safe (in case a TempDir is static and shared across multiple threads).
 //
 // Today, this class does not provide much better safety guarantees than
 // std::tmpnam(), but thanks to the required directory prefix and typical
 // implementations of std::random_device, should see less risk of collisions in
 // practice.
 class TempDir {
  public:
   TempDir(std::string_view prefix) : rng_(GetSeed()) {
     temp_dir_ = std::filesystem::temp_directory_path();
     temp_dir_ /= std::string(prefix) + GetRandomSuffix();
     PW_ASSERT(std::filesystem::create_directory(temp_dir_));
   }

   ~TempDir() { PW_ASSERT(std::filesystem::remove_all(temp_dir_)); }

   std::filesystem::path GetTempFileName() {
     return temp_dir_ / GetRandomSuffix();
   }

  private:
   std::string GetRandomSuffix() {
     pw::StringBuffer<9> random_suffix_str;
     uint32_t random_suffix_int = 0;
     PW_ASSERT(rng_.GetInt(random_suffix_int).ok());
     PW_ASSERT(random_suffix_str.Format("%08" PRIx32, random_suffix_int).ok());
     return std::string(random_suffix_str.view());
   }

   // Generate a 64-bit random from system entropy pool. This is used to seed a
   // pseudo-random number generator for individual file names.
   static uint64_t GetSeed() {
     std::random_device sys_rand;
     uint64_t seed = 0;
     for (size_t seed_bytes = 0; seed_bytes < sizeof(seed);
          seed_bytes += sizeof(std::random_device::result_type)) {
       std::random_device::result_type val = sys_rand();
       seed = seed << 8 * sizeof(std::random_device::result_type);
       seed |= val;
     }
     return seed;
   }

   random::XorShiftStarRng64 rng_;
   std::filesystem::path temp_dir_;
 };

 class StdFileStreamTest : public ::testing::Test {
  protected:
   StdFileStreamTest() = default;

   void SetUp() override {
     temp_file_path_ = temp_dir_.GetTempFileName().generic_string();
   }
   void TearDown() override {
     PW_ASSERT(std::filesystem::remove(TempFilename()));
   }

   const char* TempFilename() { return temp_file_path_.c_str(); }

  private:
   // Only construct one temporary directory to reduce waste of system entropy.
   static TempDir temp_dir_;

   std::string temp_file_path_;
 };

 TempDir StdFileStreamTest::temp_dir_{"StdFileStreamTest"};

 TEST_F(StdFileStreamTest, SeekAtEnd) {
   // Write some data to the temporary file.
   const std::string_view kTestData = kSmallTestData;
   StdFileWriter writer(TempFilename());
   ASSERT_EQ(writer.Write(as_bytes(span(kTestData))), OkStatus());
   writer.Close();

   StdFileReader reader(TempFilename());
   ASSERT_EQ(reader.ConservativeReadLimit(), kTestData.size());

   std::array<char, 3> read_buffer;
   size_t read_offset = 0;
   while (read_offset < kTestData.size()) {
     Result<ConstByteSpan> result =
         reader.Read(as_writable_bytes(span(read_buffer)));
     ASSERT_EQ(result.status(), OkStatus());
     ASSERT_GT(result.value().size(), 0u);
     ASSERT_LE(result.value().size(), read_buffer.size());
     ASSERT_LE(result.value().size(), kTestData.size() - read_offset);
     ConstByteSpan expect_window =
         as_bytes(span(kTestData)).subspan(read_offset, result.value().size());
     EXPECT_TRUE(pw::containers::Equal(result.value(), expect_window));
     read_offset += result.value().size();
     ASSERT_EQ(reader.ConservativeReadLimit(), kTestData.size() - read_offset);
   }
   // After data has been read, do a final read to trigger EOF.
   Result<ConstByteSpan> result =
       reader.Read(as_writable_bytes(span(read_buffer)));
   EXPECT_EQ(result.status(), Status::OutOfRange());
   ASSERT_EQ(reader.ConservativeReadLimit(), 0u);

   EXPECT_EQ(read_offset, kTestData.size());

   // Seek backwards and read again to ensure seek at EOF works.
   ASSERT_EQ(reader.Seek(-1 * read_buffer.size(), Stream::Whence::kEnd),
             OkStatus());
   ASSERT_EQ(reader.ConservativeReadLimit(), read_buffer.size());
   result = reader.Read(as_writable_bytes(span(read_buffer)));
   EXPECT_EQ(result.status(), OkStatus());

   reader.Close();
 }

 }  // namespace
 }  // namespace pw::stream
	// Copyright 2022 The Pigweed Authors
	//
	// Licensed under the Apache License, Version 2.0 (the "License"); you may not
	// use this file except in compliance with the License. You may obtain a copy of
	// the License at
	//
	// https://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
	// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
	// License for the specific language governing permissions and limitations under
	// the License.

	#include "pw_stream/std_file_stream.h"

	#include <algorithm>
	#include <array>
	#include <cinttypes>
	#include <cstdio>
	#include <filesystem>
	#include <random>
	#include <string>
	#include <string_view>

	#include "gtest/gtest.h"
	#include "pw_assert/assert.h"
	#include "pw_bytes/span.h"
	#include "pw_containers/algorithm.h"
	#include "pw_random/xor_shift.h"
	#include "pw_span/span.h"
	#include "pw_status/status.h"
	#include "pw_status/status_with_size.h"
	#include "pw_string/string_builder.h"

	namespace pw::stream {
	namespace {

	constexpr std::string_view kSmallTestData(
	"This is a test string used to verify correctness!");

	// Creates a directory with a specified prefix followed by a random 32-bit hex
	// number. Random temporary file handle names can then be requested. When the
	// TempDir is destroyed, the entire directory is deleted.
	//
	// Example created temporary files:
	// /tmp/StdFileStreamTest32B37409/997BDDA2
	// /tmp/StdFileStreamTest32B37409/C181909B
	//
	// WARNING: This class should ONLY be used for these tests!
	//
	// These tests need to open and close files by file name, which is incompatible
	// with std::tmpfile() (which deletes files on close). Even though std::tmpnam()
	// looks like the right tool to use, it's not thread safe and doesn't provide
	// any guarantees that the provided file name is not in use. std::tmpnam() is
	// also marked with a deprecation warning on some systems, warning against using
	// it at all.
	//
	// While on some systems this approach may provide significantly better
	// uniqueness since std::random_device may be backed with thread-safe random
	// sources, the STL does not explicitly require std::random_device to produce
	// non-deterministic random data (instead only recommending it). If
	// std::random_device is pseudo-random, this temporary directory will always
	// end up with the same naming pattern.
	//
	// If the STL required std::random_device to be thread-safe and
	// cryptographically-secure, this class could be made reasonably production
	// ready by increasing use of entropy and making temporary file name selection
	// thread-safe (in case a TempDir is static and shared across multiple threads).
	//
	// Today, this class does not provide much better safety guarantees than
	// std::tmpnam(), but thanks to the required directory prefix and typical
	// implementations of std::random_device, should see less risk of collisions in
	// practice.
	class TempDir {
	public:
	TempDir(std::string_view prefix) : rng_(GetSeed()) {
	temp_dir_ = std::filesystem::temp_directory_path();
	temp_dir_ /= std::string(prefix) + GetRandomSuffix();
	PW_ASSERT(std::filesystem::create_directory(temp_dir_));
	}

	~TempDir() { PW_ASSERT(std::filesystem::remove_all(temp_dir_)); }

	std::filesystem::path GetTempFileName() {
	return temp_dir_ / GetRandomSuffix();
	}

	private:
	std::string GetRandomSuffix() {
	pw::StringBuffer<9> random_suffix_str;
	uint32_t random_suffix_int = 0;
	PW_ASSERT(rng_.GetInt(random_suffix_int).ok());
	PW_ASSERT(random_suffix_str.Format("%08" PRIx32, random_suffix_int).ok());
	return std::string(random_suffix_str.view());
	}

	// Generate a 64-bit random from system entropy pool. This is used to seed a
	// pseudo-random number generator for individual file names.
	static uint64_t GetSeed() {
	std::random_device sys_rand;
	uint64_t seed = 0;
	for (size_t seed_bytes = 0; seed_bytes < sizeof(seed);
	seed_bytes += sizeof(std::random_device::result_type)) {
	std::random_device::result_type val = sys_rand();
	seed = seed << 8 * sizeof(std::random_device::result_type);
	seed \|= val;
	}
	return seed;
	}

	random::XorShiftStarRng64 rng_;
	std::filesystem::path temp_dir_;
	};

	class StdFileStreamTest : public ::testing::Test {
	protected:
	StdFileStreamTest() = default;

	void SetUp() override {
	temp_file_path_ = temp_dir_.GetTempFileName().generic_string();
	}
	void TearDown() override {
	PW_ASSERT(std::filesystem::remove(TempFilename()));
	}

	const char* TempFilename() { return temp_file_path_.c_str(); }

	private:
	// Only construct one temporary directory to reduce waste of system entropy.
	static TempDir temp_dir_;

	std::string temp_file_path_;
	};

	TempDir StdFileStreamTest::temp_dir_{"StdFileStreamTest"};

	TEST_F(StdFileStreamTest, SeekAtEnd) {
	// Write some data to the temporary file.
	const std::string_view kTestData = kSmallTestData;
	StdFileWriter writer(TempFilename());
	ASSERT_EQ(writer.Write(as_bytes(span(kTestData))), OkStatus());
	writer.Close();

	StdFileReader reader(TempFilename());
	ASSERT_EQ(reader.ConservativeReadLimit(), kTestData.size());

	std::array<char, 3> read_buffer;
	size_t read_offset = 0;
	while (read_offset < kTestData.size()) {
	Result<ConstByteSpan> result =
	reader.Read(as_writable_bytes(span(read_buffer)));
	ASSERT_EQ(result.status(), OkStatus());
	ASSERT_GT(result.value().size(), 0u);
	ASSERT_LE(result.value().size(), read_buffer.size());
	ASSERT_LE(result.value().size(), kTestData.size() - read_offset);
	ConstByteSpan expect_window =
	as_bytes(span(kTestData)).subspan(read_offset, result.value().size());
	EXPECT_TRUE(pw::containers::Equal(result.value(), expect_window));
	read_offset += result.value().size();
	ASSERT_EQ(reader.ConservativeReadLimit(), kTestData.size() - read_offset);
	}
	// After data has been read, do a final read to trigger EOF.
	Result<ConstByteSpan> result =
	reader.Read(as_writable_bytes(span(read_buffer)));
	EXPECT_EQ(result.status(), Status::OutOfRange());
	ASSERT_EQ(reader.ConservativeReadLimit(), 0u);

	EXPECT_EQ(read_offset, kTestData.size());

	// Seek backwards and read again to ensure seek at EOF works.
	ASSERT_EQ(reader.Seek(-1 * read_buffer.size(), Stream::Whence::kEnd),
	OkStatus());
	ASSERT_EQ(reader.ConservativeReadLimit(), read_buffer.size());
	result = reader.Read(as_writable_bytes(span(read_buffer)));
	EXPECT_EQ(result.status(), OkStatus());

	reader.Close();
	}

	} // namespace
	} // namespace pw::stream